Various active diode circuits are described. In one example, there is provided an active diode circuit having an active diode and a control circuit. The active diode includes an anode terminal, a cathode terminal and a control terminal. The control circuit is configured to generate a control current of the active diode on the control terminal proportional to the diode current of the active diode. The control circuit is also configured to control the diode voltage of the active diode below a predetermined threshold.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An active diode circuit comprising: an active diode, the active diode comprising an anode terminal, a cathode terminal, a control terminal, a first MOSFET of a first conductivity type, and a second MOSFET of the first conductivity type, wherein a source of the first MOSFET and a source of the second MOSFET are connected to form one of the anode terminal and cathode terminal of the active diode, a gate and a drain of the first MOSFET are connected to a gate of the second MOSFET, a source and a drain of the second MOSFET form the other one of the anode terminal and cathode terminal of the active diode, and the gate of the first MOSFET forms the control terminal of the active diode; and a control circuit configured to generate a control current of the active diode on the control terminal proportional to a diode current of the active diode, and to control the diode voltage of the active diode below a first predetermined threshold, wherein the control circuit comprises: a current mirror circuit connected across the anode terminal or cathode terminal and the control terminal to generate a control current of the active diode on the control terminal proportional to the diode current of the active diode, and a third MOSFET of the first conductivity type, wherein a body of the third MOSFET is connected to the one of the anode terminal and cathode terminal of the active diode, and a source of the third MOSFET is connected to the other of the anode terminal and cathode terminal of the active diode.
2. The active diode circuit according to claim 1 , wherein an aspect ratio of the first MOSFET is selected to be above a second predetermined threshold value such that a ratio of the control current to the diode current is minimized.
3. The active diode circuit according to claim 1 , wherein an aspect ratio of the second MOSFET and an aspect ratio of the third MOSFET are selected to provide a diode voltage below the first predetermined threshold.
4. The active diode circuit according to claim 1 , wherein the current mirror is connected across the control terminal of the active diode and a drain of the third MOSFET.
5. The active diode circuit according to claim 1 , wherein a gate of the third MOSFET is connected to the control terminal of the active diode.
6. The active diode circuit according to claim 1 , wherein the control circuit further comprises a detector circuit configured to detect that the control current being generated is proportional to a detected diode current of the active diode.
7. The active diode circuit according to claim 6 , wherein the current mirror comprises a fourth MOSFET of a second conductivity type and a fifth MOSFET of the second conductivity type.
8. The active diode circuit according to claim 7 , wherein the detector comprises a sixth MOSFET of the first conductivity type and a seventh MOSFET of the second conductivity type, a drain of the sixth MOSFET being connected to a drain of the seventh MOSFET, wherein a source of the sixth MOSFET is connected to the one of the anode terminal and cathode terminal of the active diode, a gate of the sixth MOSFET is connected to the drain of the sixth MOSFET and the drain of the seventh MOSFETs and the gate of the third MOSFET, and the drain of the third MOSFET and a drain of the fourth MOSFET are connected to a gate of the seventh MOSFET.
9. A current circuit comprising: an active diode circuit, the active diode circuit comprising: an active diode, the active diode comprising an anode terminal, a cathode terminal a control terminal, a first MOSFET of a first conductivity type, and a second MOSFET of the first conductivity type, wherein a source of the first MOSFET and a source of the second MOSFET are connected to form one of the anode terminal and cathode terminal of the active diode, a gate and a drain of the first MOSFET are connected to a gate of the second MOSFET, a source and a drain of the second MOSFET form the other one of the anode terminal and cathode terminal of the active diode, and the gate of the first MOSFET forms the control terminal of the active diode, and a control circuit configured to generate a control current of the active diode on the control terminal proportional to a diode current of the active diode, and to control the diode voltage of the active diode below a first predetermined threshold, wherein the control circuit comprises: a current mirror circuit connected across the anode terminal or cathode terminal and the control terminal to generate a control current of the active diode on the control terminal proportional to the diode current of the active diode, and a third MOSFET of the first conductivity type, wherein a body of the third MOSFET is connected to the one of the anode terminal and cathode terminal of the active diode, and a source of the third MOSFET is connected to the other of the anode terminal and cathode terminal of the active diode.
10. The current circuit of claim 9 : wherein the control circuit further comprises a detector circuit configured to detect that the control current being generated is proportional to a detected diode current of the active diode, wherein the current mirror comprises a fourth MOSFET of a second conductivity type and a fifth MOSFET of the second conductivity type, and wherein the detector comprises a sixth MOSFET of the first conductivity type and a seventh MOSFET of the second conductivity type, a drain of the sixth MOSFET being connected to a drain of the seventh MOSFET, wherein a source of the sixth MOSFET is connected to the one of the anode terminal and cathode terminal of the active diode, a gate of the sixth MOSFET is connected to the drain of the sixth MOSFET and the drain of the seventh MOSFETs and the gate of the third MOSFET, and the drain of the third MOSFET and a drain of the fourth MOSFET are connected to a gate of the seventh MOSFET.
11. The current circuit of claim 9 , wherein the current circuit comprises a current source.
12. The current circuit of claim 11 , further comprising a MOSFET of the first conductivity type mirroring the third MOSFET to generate a current proportional to the diode current of the active diode.
13. The current circuit of claim 9 , wherein the current circuit comprises a current sink.
14. The current circuit of claim 13 , further comprising a MOSFET of the second conductivity type connected across the current mirror circuit to sink a current proportional to the diode circuit.
15. An electronic device comprising: an active diode circuit comprising: an active diode, the active diode comprising an anode terminal, a cathode terminal, a control terminal, a first MOSFET of a first conductivity type, and a second MOSFET of the first conductivity type, wherein a source of the first MOSFET and a source of the second MOSFET are connected to form one of the anode terminal and cathode terminal of the active diode, a gate and a drain of the first MOSFET are connected to a gate of the second MOSFET, a source and a drain of the second MOSFET form the other one of the anode terminal and cathode terminal of the active diode, and the gate of the first MOSFET forms the control terminal of the active diode; and a control circuit configured to generate a control current of the active diode on the control terminal proportional to a diode current of the active diode, and to control the diode voltage of the active diode below a first predetermined threshold, wherein the control circuit comprises: a current mirror circuit connected across the anode terminal or cathode terminal and the control terminal to generate a control current of the active diode on the control terminal proportional to the diode current of the active diode, and a third MOSFET of the first conductivity type, wherein a body of the third MOSFET is connected to the one of the anode terminal and cathode terminal of the active diode, and a source of the third MOSFET is connected to the other of the anode terminal and cathode terminal of the active diode.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
November 15, 2013
April 7, 2015
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.